Beilstein J. Nanotechnol.2018,9, 2381–2395, doi:10.3762/bjnano.9.223
promising Si/C composite is also studied in a LIBfullcell vs a NMC-111 cathode; such a configuration is very seldom reported in the literature. More specifically, the influence of electrochemical prelithiation on the cycling performance in this full cell set-up is studied and compared to non-prelithiated
full cells. While prelithiation is able to remarkably enhance the initial capacity of the full cell by ≈18 mAh g−1, this effect diminishes with continued cycling and only a slightly enhanced capacity of ≈5 mAh g−1 is maintained after 150 cycles.
Keywords: LIBfullcell; lithium-ion batteries
publications do not include the application in a real LIBfullcell set-up, but only investigations vs Li-metal counter electrodes (“half-cell” set-up).
In general, it should be stated that even though some impressive cycling results of Si-based anode materials with stable cycling performances at high
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Figure 1:
SEM micrographs of the different synthesized Si/C composite materials with a carbon to silicon rati...